Simultaneous Domination in Graphs

Let $F_1, F_2, ..., F_k$ be graphs with the same vertex set $V$. A subset $S \subseteq V$ is a simultaneous dominating set if for every $i$, $1 \le i \le k$, every vertex of $F_i$ not in $S$ is adjacent to a vertex in $S$ in $F_i$; that is, the set $S$ is simultaneously a dominating set in each graph $F_i$. The cardinality of a smallest such set is the simultaneous domination number. We present general upper bounds on the simultaneous domination number. We investigate bounds in special cases, including the cases when the factors, $F_i$, are $r$-regular or the disjoint union of copies of $K_r$. Further we study the case when each factor is a cycle.